John a



J. A. MILLIKEN.

GLASS CUTTING MACHINE.

APPLICATION FILED AUG-21,1916. RENEWED MAR. 25. 1921.

, 1 ,402457 r Patented J an. 3, 1922.

8 SHEETSSHEET I.

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1 A. MILLIKEN.

GLASS CUTTING MACHINE.

APPLlCAT-lON HLED AUG.2I, 1916' RENEWED MAR. 25. 192l.

1, a 4: Patented J an. 3, 1922.

8,8HEETS-SHEET 2.

.-Z7U'Z" w mm J. A. MILUKEN,

GLASS GUTTING MACHINE.

APPLlCATlON FILED AUG.'2I,1916- RENEWED MAR. 25. 192.

1,402,457, Patented Jan. 3, 1922.

BSHEETS-SHEET a.

elite: neg

J. A. MILLIKEN.

GLASS CUTTING MACHINE.

APPLICATION FILED AUG.2I, 1916; RENEWED MAR. 25. 1921.

1,402,457. Patented Jan. 3,1922.

8 SHEETS-SHEET 4.

J. A. MlLLlKEN. GLASS CUTTING MACHINE. APPLICATION FILED AUG.21.1916. RENEWED MAIL 25. 1921.

1,402,457" Patented Jam 3, 1922?.

8 SHEETS-SHEET 5.

J. A. MILLIKEN. GLASS CUTTING MACHINE.

APPLICATION FILED AUG.21, I916. RENEWED MAR. 25 192!- 1 $02,457 Patented Jan. 3, 1922.

s SHEETS-SHEET s.

,1. ArMILLlKEN.

GLASS CUTTING MACHINE. APPLICATION FILED AUG.2I, 1'915- RENEWED MAR-25.19M- 1,402,457.

Patented Jan. 3, 1922.

8 SHEETS-SHEET 7 gwumahz J. A. MILLIKEN.

GLASS CUTTING MACHINE.

APPLICATION FILED AUG.21, I9l6. RENEWED MAR. 25. 1921.

"1,402,457, Patented Jan. 3,1922.

8 SHEETS-SHEET 8,

abtonl et q PATENT (ll lFltIE.

JOHN A. MILLIKEN, or BAYONNE, lil'llllll J'ERSJEY, ASSIGNQR TU JOE-[N E. MARSDEN, 0] ATLANTIC CITY, NEW JERfiEEY.

GLASS-CUTTING MACHINE.

. as er.

Application filed August 21. 1191s, Serial No. 116,170. Renewed March 25, 19%.

To all whom it may concern:

Be it known. that I, Joi-rn A. MILLIKEN, a citizen of the United States, residing at Bayonne, in the county of Hudson and State of New Jersey, have invented new and useful Improvements in Glass-Cutting Machines, of which the following is a specili cation.

This invention is a machine for cutting or grinding ornamental designs into the surfaces of glass articles, such as tumblers and the like.

One of the objects of the invention is to provide a machine of this character for auto matically applying a design to the surface of the article being acted upon. A. further object is to provide means for automatically imparting a step by step rotation to the glass article, and for automatically applying a portion of the design during the pauses in the rotation thereof. A further object is to provide an automatic machine for ornainenting the surfaces of glass articles, said machine having means by which. the design may be varied. A. further object is to pro vide a machine of this character having means for controlling the cutting mechanism to automatically compensate for inequalities in the surface of the glue. articles. A further object is to provide means to engage the glass article and mechanism controlled thereby, to insure a uniform depth of out by the cutting mechanism. A further object is to provide means by which the depth of cut may be varied. A. further object is to pr0- ride means whereby the machine will automatically adjust itself to glass bodies of different diameters, without previous manual manipulation. A. further object is to provide means whereby the machine will be automatically stopped at the completion of the d n that is being imparted to the article being operated upon.

The invention will be hereinafter fully set forth and particularly pointed out in. the claims.

In the accompanying drawings Figure .1 is a side elevation of a machine constructed in accordance with the invention. Figure 2 is a front view thereof. Figure 9f is a detail view of the yleldable abutment. Figure 3 is a rear view of the machine. Figure 4 is a sectional. side elevation, one of the sides of the machine frame being Specification of Letters Patent.

Patented Jan. 3, 1922.

Serial no. 455,593.

removed. Figure 5 is a detail view of the chuclcrotating and. the throw-off mechanisms. Figure 6 is a detail view illustrating the means for preventing rotation of the chuck. Figures '?',8, 9 and 10 are detail views of the feeler slide and grinder slides and their adjuncts. Figure 11 is a longitudinal sectional. view of the chuck and chuck shaft. Figure 12 is a front end view of the chuck. Figure 13 is a detail view of the operating cam. Figures 1 1- to 17, are diagrammatic views illustrating the method of cutting; and various designs produced thereby.

Referring; to the drawings, 10 designates a base plate, attached to and supported by a suitable bench or standard (not shown). Secured to said base plate 10, are the sides 11, of the frame, said sides being rigidly retained in spaced relation, by pairs of cross bars. The lower cross-bars 12 rest upon ribs 13, formed on the inner faces of said sides, said cross bars being held in position in suitable manner. The upper cross bars 15, have their ends in engagement with the inner faces of the sides 11, said bars 15 being arranged in different planes.

The main drive shaft 16, is mounted in a sleeve-like bearing 17, extending transversely through one of the sides 11, a portion of said shaft being provided with a worm 18. Power may be applied to the shaft in any suitable or preferred manner. In the drawings, pulley 19, is illustrated as loosely mounted upon said shaft, said pulley receiving its power from a source, not shown. Any desired form of clutch may be employed for coupling the pulley 19, with the drive-shaft. As shown in the drawings, the shaft is provided. with a clutch member 20, rigidly secured thereto, complemcntal to a correspondinn; clutch member on one face of the pulley 19, a spring 21, encircling the shaft 16 acting against said pulley to normally separate the clutch members. For the purposeof moving the pulley against the tension of spring; 21, to effect engagement of the clutch members, a lever 22 is provided, the same being; attached to a hub rotatably mounted upon the shaft 16, one end of said hub being positioned to abut against the hub of the pulley 19, the other end of the hub 23 being); provided with a projection 24:, shaped to enter a cam recess 25, formed in the contiguous end of thebearing sleeve 17. The

vwith a treadle l1.

spring 21, acts against the lever 22, to maintain the projection 24, opposite the recess 25,- thereby'permitting the spring 21, to move the pulley 19, in a direction to disengage the clutch. Mounted in suitable bearings with which the cross-bars 12 are provided, is a cam shaft 27, the same being provided with a-worm wheel 28, meshing with the worm 18 on the main drive shaft.

The cross bars 15 are provided with bearings which rotatably support a normally inclined chuck-shaft 30, provided with a ratchet wheel 31, which is engaged bya pawl 32, pivotally mountedupon a pawl carrier 33,'slidably mounted upon a guide 34, seured in suitable manner to one of the crossbars 15. The pawl carrier 33, is reciprocated by means of an arm 35, to which it is pivotally connected, said arm being attached to a rock shaft 36, having its ends mounted in suitable bearings carried by the sides 11, said rock shaft being provided with an actuating finger 37, overhanging a cam member C secnredto the cam shaft 27. Said cam member is provided with a plurality of raised peripheral cam portions 38, positioned to engage the finger 37,.and thereby rock the shaft 36, so as to actuate the pawl member, whereby the chuck shaft receives partial forward rotation. The chuck shaft 30, is slidable longitudinally in its bearings, movement being imparted thereto by means of a bell crank lever 39, one arm of which is provided with a fork 39, engaging shoulder 40 formed on said shaft, the other arm of said bell crank lever being connected A spring 12, or other suitable device, is employed to press said chuck shaft upwardly against a spacing bar 13, supported in a suitable carrier as, at tached to one of the bars. 15, said spacing bar being positioned to engage an annular flange 45 attached to the shaft 30, to limitlongitudinal movement of said shaft in one direction, for a purpose to be hereinafter described. In order to lock the chuck shaft after each partial forward rotation thereof. under theaction of pawl 82, a locking wheel 46' is rigidly secured thereto, the periphery of said wheel being provided with V-shaped notches 47 corresponding in number with the teeth upon ratchet wheel 31. Said notches are engaged by a locking member 48, provided with a projection complemental thereto, said locking member being pivotally supported by a projection 49, attached to one of the cross bars 15, a spring 50 acting tomaintain said locking member normally in engagement with the periphery of the locking wheel;

' The spacing bar 43 is provided with one or more shoulders 51, corresponding to the number of times the glass is to be completely rotated while the design is being applied thereto, said shoulders being positioned to be engaged by the flange 4:5. Attached to said flange 45 is a cam 52, which as the flange 15 completes each revolution, engages one of the shoulders of the spacing bar. and moves said bar upwardly a suflirient distance to bring the next shoulder into position opposite to said flange 15, the spring 2, on the treadle ell, serving to move the chuck shaft loi'igitudinally to bring said collar into engagement with the said next shouli'ler.

Any desired form of chuck for engaging and holding the glasses to be operated upon, may be employed. In the form of chuck illustrated, the chuck shaft 339 is made hollow, and extending longitudinally through the same is a draw-bar 58, provided at its lower end with a collar 5%, slidahly mounted upon the chuck shaft, and held in engagement with the fork 39, of the bell crank lever 39, by means of a spring '35, acting between abutments upon said draw bar and said chuck shaft respectively. llligidly secured to the upper end of the chuck shaft 30, are hubs 56 and 56 provided with pivoted fingers 57, which support glass engaging bars 58, of approximate U-shape in cross section, an elastic band 59 encircling the bars 58 acting to maintain them normally under compression and in contracted relation. Each finger 57 is provided with a rearwardly extended projection. 00. The chuck shaft 30 is longitudinally slotted adjacent the hubs 56 and 56, to accommodate pins 61 and Cd, attached to the draw bar 5 The pin 61 projects through a slotted portion (32, formed in a slidable hub 63, said hub being provided with a flange 6i, normally held against the projection (50, of the contiguous lingers in", by means of springs 65. encircling bolts. or similar devices 66. attached to said collar. and extended through lugs projecting from the hub 56. The pin (31 ri idly connects a hub 63 with the draw-bar 53. said hub ('17 being provided with a flange (3-1, positioned to engage the projections (30 of the lingers 57 carried by the hub 56. llv means of this arrangement the flanges (34- and 61, acting against the projections Gil, of the lingers 57 hold the bars outwardly into engagement with the inner surface of the glass to he acted upon. and against the tension of the elastic band 59, until the (roadie ii is pushed downwardly drawingthe drznvbai'hil downwardly. with the result that the hub 63 is positively moved at once with the draw bar. )G mitting the fingers 57 carried by the. hub 56, to move inwardly under the tension of the band 59, and as the draw bar 52 3 continues to move, the pin (31 will traverse the length of the slot (S2, and then withdraw the hub 63 from engagement with the lingers 57 carried by the hub 56 whereupon a glass upon the chuck may be removed and a new one substituted. The arrangement above dcseribed permits of the ready and prompt machine.

at the same time insures that the glass will" be firmly engaged at all points by at our form pressure oil suihcient force to retain the same in position and insure itsrotation with the chuck during the operations or In the drawin s two erindinv me. ianisnis t: w w

A. and B are disclosed, although eithermay be dispensed. with without departing from the spirit of the invention For most pun poses, however, for which the mvention is designed, two such mechanisms are desirable the same being actuated by cams and secured to cam shaft 27. Inasmuch as each of the mechanisms is duplicate oi? the other, the description oil? one will su'liice.

Each of said grinding; members comprises a drive shaft 68 mounted in front and haul: slides 60 and 70, inovably supported in housings 71. and 72, located at the front and back of the frame, respectively. Said housings are adjustably mounted upon guides 73, carried. by the contiguous side 11 of the frame, being connected by a top-plate Tel, whereby both housings may he simultaneously moved to adjust the shalt 08, forwardly or bachwardly, as may bedesired. The slides (-30 and 7 0 are provided. with antifriction bearings oil? any suitable or desired il'orm, capable of rotutably supporting said shaft. The housings 7'1 and F2 are provided with longitudinally extended slots 73, to provide clearance for the lateral movement of the shaft when the cs 09 and are actuated. it rock short 75 is supported by bearings 75", carried by the sides 11. and secured to said rock shaft are arms 76 and 77. which arms are provided with bearings 78, to support a second rock shaft '79, provided at its ends with cranlr members 80, engaging blocks 81. moun ed in vertical guides 82, in the respecti slides 69 and 70. Loosely mounted on the rock shaft 75 is one member 88, oi a l"="ction device, the other member li ioit whirh is connected with the arm 76. The member oi the friction device is secured to an arm 536 which engages a com irroove 8? in one face of the cum member (I or U, as the case may The shaft 68 rotated in suitable inunner, belt pulleys 68" tor that purpose being}; illustrated in the drawings.

The front face of: the housing; 71 is provided with a guide for a feeler slidelith provided with e projection 89 adapted to engage the gloss being operated upon, tor the purpose oi? controllii he movement of the slides 69 and. i0, said slide 88 having a slot 90 to provide clearance for the shaft The inner face of the feeder slide 88 is provided with a pin or lug}; 91 which proje' ts into a recess 92, in the slide 00. the move merit of the lugs; relative to the slide 60, being edjustably limited by means of a screw 08, carried by the said slide 09, and supported opposite the pin or lug 91. l Vhen a glass is to be placed upon the chuck, the rock shaft 70 is ine-nually actuated by means oi the finger 9%, so 215 to move'the slides 69 and 70, and the :tceler slide 88 sway lrom the chuclr. ll hen the glass llitS been placed in peer on, movement of the roclt shaft 79, is revc *ed until the projection 89, comes into cents with the glass, whereupon movement all the slides is arrested. in order to temporarily loch the ileeler slide 88, during the period that the chucl; is not rotating, the housing 'i'l provided with a guide to receive: a locking member 96 loosely mounted upon an eccentric 97 provided with an operating arm 92%, connected by a link 99, with an actuating member 100, pivotally supported in an arm 101 carried by one of the cross bars 152, and said actuating mom.- ber being operatively connected with the earn 0 In operation utter the :t'eeler slide has been moved into engagement with the glass. the arms 16 and TL are actuated to move the slides 71 and 72, toward the chuck, to bring; the grinding wheels and B, into contact with the glass the contacting move ment oi? each wheel being; arrested when the screw 93 comes into contact with the pin or lug 91 movement of the teeler slide being prevented by the locking member 96. lit will thus be observed that the Peeler slideserves as a to control the movement of its respective grinding wheel with respect to the tumbler. in order to prevent shaft '19 from rocking" too freely a tension device is provided such as the weight 94-. Move nient oi the teeler slide 88 away from the churlr. is adjustably l mited by a threaded rod 88 mounted in slide 88 and positioned to engage a stop 88" carried by slide 69.

in order to compensate for inequalities in the diameter of the glass being; uctedupon so as to insure uniformity in the operatioi ot the grinding mechanism, the arm 76, is provit (l with an extension 103 provided at s extremity with a hub 1.04;, carrying a sleeve 105 through which extends a pin I.

posit oned to abut against the end of the sleeve. hllorurted in suitable bearings car rind the sides 11, is a rock shaft 111, pro- '.e with an actuating member 112, post tiened to engage cam projections 113 on the cam member C. Loosely mounted on said roch shaft is a member 114, provided (Iii r the cam.

with a wedgeshaped portion 115, positioned to move between the inner end of the pin 106, and a pin or lug 116 projecting from the side 11, said member 11%, resting by gravity againsta pin or lug 117, carried oyan arm 118 rigidly secured to said rock shaft. In operation, while the slides 69 and 70 are moving toward the glass to be operated upon, the arm 103 moves away from the side member 11, permitting the spring 107 to project pin 106 toward said si member, to move collar 110 from r3 end of sleeve 105. At the same time the wedge portion of member 1141, is moving by gravitybetween pin 106 and lug 11?. Just as soon as movement of the slides is arrested, the movement of wedge member 11.5 is also arrested, for the reason that the gravity cannot overcome the friction of the engagement with pin 106. The distance between collar 110 and the end of sleeve .105 at this time, corresponds to the distance the slides 69 and 70 have moved toward the glass. As said slides move away fem the glass, the extension 103 is first moved the distance between collar 110 and; the end of sleeve 105, -whereupon the wedge 11.3, which fills the space between. pin 106 and lug 116, acts as a solid abutment, cooperat ing with collar 110 to prevent further movement of said extension 103, and therefore also limiting the withdrawal movement of the slides," but the camarm is permitted to continue to move, by the friction. devic. By this arrangement each grinding wheel .is moved just far enough to clear the glass and permit the latter to be rotated, the grinding mechanism being then automati- 'cally held in aneutral position until the peak of the cam in member C or C, as the 'case may be, comes around into engagement with the cam arm 86 to repeatthe operation of the machine. This operation will be more clearly understood by reference to Figure 13, in which the cam arm 86 is shown as having just reached the peak of In travelling to this position, when the rollerv reaches the point as, the feeler slide 88, is unlocked, and the grinding wheel starts to withdraw, the Wltl'l- .drawal being completed when the point '0 is reached. The roller must then travel from o to the peak of the cam, as indicated at a, further movement of the grinding wheel being prevented by the member 11a until the roller reaches the peak of the cam at which point the cam 113engages actuating member 112, and actuates rock shaft 111 to withdraw the member 11 1, where upon the operations of the machine are repeated, Thus it will be understood that the feeler slide 88, serves as a gage to automatically adjust the parts to compensate for irregularities in the surface of the glass p of the cuttiii 'z' ope ation, suitable throw off mechanism is provided. Said mechanism is'illnstrat'ed as comprising a latch 1.520, slidably mounted in a boss attached to one of the sides 11, and normally held in the path of the clutch lever 22, by a spring 121. Said latch is shifted against the tension of the spring, by means or a lever 123, connected at one end to the latch, and pivotally supported in suitable manner, said lever having an extension by means of which it may be manually operated if desired. ild'justably attached to the chuck shaft 30 is a throw 01f pawl 1'26, movable with the chuck shaft when the latter is shifted longitiulinally. lit the end of the last revolution of the chuck shaft, i. e., that revolution which takes place while the flange 15, is in engagement with the last notch of the spacing bar 43, the throw-01f pawl will have been moved into a position opposite the lever 123,

and will engage a cam portion 127 on said shafts T 9 are rocked toward the glass by the fingers 9st, thereby bringing the feeler slides 88 into engagement with the glass. and moving the grinding wheels also into engagement with the glass. The clutch lever 22 is then shifted to permit the pulley 19 to be clutched with the drive shaft 16, whereupon the cam shaft 27 is set in motion. the clutch lever being engaged by latch 102. As soon as the cam sha ft starts to revolve, the actuating member 1.0 is operated to brin; the locking blocks 96, into engagement with the feeler slides 88, to temporarily lock the latter rigidly against movement. dust as soon as the feeler slides 83 are locked, the rams C and C rock the arms 86 to actuate the rock shafts 74 and 79, to carry the grinding wheels A and B into engagement with opposite sides of the glass, the feeding movement of the said grinding wheels being limited by the engagement of the adjustable abutmcnts ment' of the cam arniis 86, however, being" permitted by the friction devices,in order to allow the cams to rotate to the points at i which the withdrawal ot the cutting devices is to commerme. Simultaneously with the feeding movement of the grinding wheels A and B, the rock shatt Till, has been open ated to permit the members 114:, to drop be tween the pins 106 and the lugs 116, the dis tance between collar lit) and the end. oi? sleeve 105 corresponding to the distance the slides have travelled toward the glass. When the cams C and C have rotated to the point that the cam arms 86, are moved to withdraw the cutters, the member 100 is ac tuated to disengage the locking"; blocks 96 from the teeler slides 88, and the reverse movement oil the rockshatts 74 moves the grinding wheels A and B away from the glass, a sullicient distance to permit the latter to be'rotated with the chuck. By reason the engagement between the pins 106, lugs 116, and the members 11a, rigid ahutments are provided which preventthe slides from moving back a distance greater than that re quired to permit oi rotation of the glass. the friction devices permitting the cam memhere 86, to move until. the peaks of the cams C and C come around into engagement therewith. Just as soon as the slides are moved to disengage the cutters from the glass, the cam member 0 actuates the pawl carrier 38, so as to rotate the chuck shaft a predetermined distance. At the time that this rotation of the chuck shaft is completed, the peaks of the respective cam grooves in cams C and C have reached the cam arms 86, and the slides 69 and 70, and the iteeler slides 88, are again moved toward the glass until the feeler slides contact with the same, at which time said .teeler slides are again locked, and the cutters brought up into on gagement with the glass, in the manner hetore described, the feeding movement being limited by engagement with the tliceler slide, as before described These automatic operations of feeding up to and away from the glass, and the periodic rotation of the chuck shaft, continue until the chuck has completed a number of revolutions corresponding to the number of shoulders 51., on the spacer bar 4-3, the chuck being moved longitudinally step by step at the end of each complete rotation Off the chuck shaft. As the rotation of the chuck shaft, in engagement with the last shoulder of the spacing bar is completed, the throw-oft pawl 1%, has been moved toa position opposite the throw-oil lever 123., whereupon the latch 1520, is withdrawn from engagement with the clutch lever and the pulley 19, is automatically unclutchcd from the drive shaft.

The treadle ll is then depressed to contract the chuck, whereupon the glass may be with drawn.

it will be understood that while the grind ing mechanisms A and B, are illustrated and described as mounted on horizontal shafts, with an inclined chuck shaft between them, it is obvious that the chuck shaft may be mounted horizontally and the other shafts in parallel relation, inclined with re spect to the chuck shaft without departing from the spirit of the invention. This angular relation of the grinders and 01 the chuck shaft possesses an important advantage. It will be readily seen that the gz rinders oi the respective mechanisms A and B make cuts in the glass at an angle to each other, which angle will vary with the relative angle of the chuck and the axes or? the grii'iders. When the cutters are adjusted so that they engage the glass in line with. a point corresponding to the intersection of the axis oi the chuck shaft, with the axes of the grinders, the cuts made by the cutters will intersect each other at the middle, as shown at D in Figure 14-. By adjusting the mechanism A backwardly, and the mechanism l3, forwardly in equal distance, the cuts may be made to intersect at various points or even. to be slightly separated as indicated at E Figures 15 and 17,

and by reversing this adjustment the cuts will have the reverse appearance as indicated at F in said Figure 16.

Having thus explained the nature of the invention, and described an operative manner of constructing and using the same, although without attempting to set forth all of the terms in which it may be made, or all of the forms of its use, the following is claimed L In a glass cutting mechanism. of the character described comprising a chuck, a grinder, means for alternately moving the grinder into and out oi engagement with an article to be operated upon, and a feelermeinber reciprocated to and from said artiole by corresponding movements of said grinder.

2. A. glass cutting mechanism of the character described comprising a chuck, a grinder, means for alternately moving the grinder into and out of engagement with an article to be operated upon, a feeler member reciprocated to and from said article by corresponding movements of said grinder, and means cooperating with the grinder moving means by which the engaging movements of the grinder and feeler member may be variably arrested to conform to inequalities in the surface contour of the article.

3. A glass cutting me hanism of the chem winder, means for alternately moving the ber reciprocated to and from said article by,

corresponding movements of said grinder, and means for locking the feeler membe after it has been moved into engagement with the article.

4. An improvement in glass cutting mechanism comprising a chuck, a grinder, means for moving the girnder into and out of engagement with an article carried by said chuck, a feeler slide for contacting with an article carried by said chuck, whereby said slide may be variably positioned in accord ance with the size'or the article. a locking block, means for automatically actuating said block to cause the same to periodically engage said slide, and means whereby move ment of the grinder toward said chuck is limited by said slide.

5. A glass cutting mechanism of the character described comprising a chuck, a grinder, means for alternately moving the grinder into and out of engagement with an article to be operated upon, a feeler member reciprocated to and from said article by corresponding movements of said grinder, means cooperating with the grinder movin means by which the engaging movements or the grinderand feeler member may be variably rrested to conform to inequalities in thesurface contour of the article, whereby a uniform depth of cut is maintained irrespective of the surface inequalities, and means for adjustably varying the depth of the cut.

6. An improvement in glass cutting mechanism comprising achuck, a grinder, means for moving the grinder into out of engagement with an article carried by the chuck, a feeler slide movable relative to the chuck and positioned to contact with an article carried by said chuck, said grinder and said slide. being normally free for relative movement, and means for periodically limitingv the relative movement of said grinder and said slide.

7. A glass cutting mechanism of the character described comprising a chuck, a grinder, means for alternately moving the grinder into and out of engagement with an article to be operated upon, a feeler member reciprocated to and from said article by correspondingmovements of the grinder, said feeler memberand said grinder being connected to have relative movement at all times, and adjustable means for variably limitingsaid relative movement.

8 Animprovement in glass cutting mechanism comprising a chuck. a. grinderJcutter carrying slides supporting the grinder and movable toward and from the chuck, a feeler slide for contacting with an article carried by said chuck, and movable relative. to the grinder carrying slides, and means for limiting the relative movement of the grinder carrying slides and the fecler slide. 9. An improvement in glass cutting mechanism comprising a chuck, a grinder, slides supporting the grinder and movable toward and from the chuck, a feeler slide for contacting with an article carried by said chuck, and movable relative to the grinder carrying the slides, and means for adjustably varying the relative movement of the g. inder carrying slides and the i'eoler slides.

10. An improvement in glass cutting mechanism comprising a chuck, a grinder. slides si'lpporting the grinder and movable toward and from the chuck. a feeler slide. for contacting with anjarticle carried by said chuck, and movable relative to tho grinder carrying slides. a lug projectiiur from one face of the fcelor slide. and an abut ment on one grinder slide positionml to on gage said lug to limit relati e nmveinent ol' the grinder-carrying slides and the ifeclcv slide.

11. An improvement in glass cutting mechanism comprising a chuck. a grinder. slides supporting the grinder :nd movable toward and from the chuck, a 'l'ccler slide for contacting with an. article carried by said chuck, and movable relative to the grnider-carrving slides. a lug projecting rtlrom one face of the feeler slide and a threaded rod carried by one grinder slide and positioned to engage said lug to adjust ably limit relative movement of the grinde carrying slides and the leelcr slide.

12. an improvement; in glass cutting mechanism comprising a chuck, a grinder slides supporting the. grinder and movable toward and from the chuck. a. fccler slide for contacting with an article carried by said chuck, and movable relative to the grinder-carrying slides means for periodb callv lockin the feeler slide, and means o l miting rel iive movement of the griudcu carrying slides and the feelcr slides.

13. An. improvement in glass cutting mechanisn'i comprising a chuck, a grinder, slides supporting the grinder and movable toward and from the chuck. a feeler slide for contacting with an article carried by said chuck, and movable relative to the grinder-carrying slides. a locking block. means for causing Said locking block to periodically engage said feeler slide. and means for limiting the relative movement or" the grinder-carrying slides and the. feeler slide.

14:. An improvement in glass cutting mechanism comprising a chuck, a grinder. slides supporting the grinder and movable toward and from the chuck, a 'l'eeler slide for contacting with an article carried by chuck and movable relative to the .dcv .ving slides. a loclcing block for said feeler slide, an eccentric for actuating mechanism comprising;

ator said eccentric, p

said lochirig hloclr, endineens to limitihg relative increment of the rindercarrying slidesend the teelcr slide.

15. An improvement in cutting slides supporting the gr. l morehle toward end from the chuclr it lceler slide :ror coiitoctirig With on article carried by s i' and movable reietire to grindencerrying slide, o.- loclring llilOGli tor said i or slide, eh eccentric engcgm said loctcing hlocl: to actuate the some, on ectucoin for periodicelly operating sold actuator, and moons for lirn' "is; relative movement ot' the 3, slides end the iteeler sli le:

An improvement in glass znecl' ism comprising e chucl-r, zr niezrns moving the finder into end out of engagement with are article (,1; Ad by said clutch, e tleeler slide tor contacting with en carried. by s1 id chucl whereby said slide may he tori-ably posit rd in sccordsnce with the size ct sold article, means whereby movement or" t '18 grinder toward sold chuck is limited by sold slice, and means for limiting; movement of the teeler slide away from sold chuclr.

17. non improvement in. glass cutting mechanism comprising: o. chuck a grinder; means tor moving the cutter into and out of engagement With en article carried by seld chuck, e or slide tor contsctingg with en article carried by said chuck, whereby slide may he variably positioned in ence with the size 0t sold erticlc. whereby movement of the grinder said chuck is limited by said slide. adjustable abutment tor varrhthly movement of the teeler slide ewe trom swi l chuck.

l8. '1 inrmrovcrnent in clash ('lIltlN) mocha ism conu 'irising c. chuck it och sheri:

e; .ingr mcchni'rism connected with he r4 sheitt and moral-ale therehv toward end from the chuck, means for ectusti. the I'Iocl: sho'lr @d means positioned to contact with 1e erticle and controlled hv the V?;L'l%l.hl.0l1$

the r r'tsce ineqrurlitics oil the art ale cu 11cc h) said chuck to vzirmhlv limit succesimprovement in glass cutting *m'orisrl it ehuclr, or rock shaft,

.n. llglll minis carried by said meclumisni with respect to the chuck, l memos 'QOSllLlUllGtl to contact with the tiltlCl-Z and controlled by the v: riatious in the surface i'oecr lilies oi? the rt'iclc oer "ied by said. chuct: to limit movement ol. the grinding incchsi, 11 toward the chuck.

improvement in glass cutting c comprising 91 chucle it rock sheic f mccljrmiiser srrns carried by said roclr "lt :1. second roclr shstt carried by said arms. eons connecting seid second roch shaft with the grindinginechzniism to permit indc iendent movement of the grind ing mechr. sm with respect to the chuck, means whereby said second roch shalt may he munrmlly actuated, and merirns controlled hr the size of the article carried by said chuck to limit movement of the grinding mechanism toward the chuck.

An improvement in glass cutting mechanism comprising #1 chuck, 2t rock shaft, gr filer carrying slides, arms carried by said rot-l2: shalt, at second rock she-ft mounted in ssid arms, slidehle blocks in said slides connected With the sccon d rock shalt and means :ontrolled by the size of the article carried by the chuck to limit movement of the g 'riiideccsrryingr slides toward the chuck.

Eli-l. An improvement in class cutting mechanism comprising :1 chuck, a rock sl'rsitt, grinding rnerlmnism connected with the rock shell? and movable thereby toward and from the chm-hr e rotetehle cam, an. arm connected with the rock shaft and engaging said com :1 71d means controlled by the size ot the article rcrried by said chuck to limit movement oi the grinding mechanism toward said check.

24 .rln improvement in cutting mechanism comrn'ising s chuck :1 rock she-ft,

;:;ri"1.din;r r' echonism cmmected with the rock shott sud movable tl'aereh g tow-(1rd and from the chuck. n. rotatable am, an arm connected with the TOC'lZ shaft and engaging said cant mes-cs controlled l e size of the article on. sold r'l'ruclrv for l. rtinc; movement of the grrimlinc mechenism toward the chuck and re c'l mechanism for permitting); said arm to move with said. com otter mo ement of the grinding inechsmsm 'toiverd the chuck is arrested,

Au improvement inv gloss cutting roeclmnis'zn comprising 3 .huclr roclr she'll", c'riudinrr me hanism connected with the reel: shstl' end movshlc thereby toward slid from. t e chuck. o :otstohle com. an arm connected in the reel: shaft end engaging; scid com. n1 ens controlled by the size 0:" lie article on said chuck for limiting movement of the grinding mechanism to the chuck, and a friction device connecting said arm with said rock shaft to permit said arm to move with the cam ai tcr movement the grinding mechanism toward the chuck is arrested.

26. An improvement in glass cutting mechanism comprising a chuck, a rock She/ t, grinding mechanism connected with the rock shaft and movable thereby to -=1, l and from the chuck, a cam arm engaging said cam and provided with a friction member, a complemental friction mei'nber carried by said rock shaft, and means controlled by the size of the article on said chuck tor limiti movement of the grinding mechanism ward the chuck.

27. An improvement in glass cutting mechanismcomprising a chuck, a grinder, means for moving; the grinder into and out of engagement with an article carried by the chuck, means controlled by variations in the dimensions oi said. article for limiting movement of the grinder toward the chuck, and means for preventing; the grinder from moving away from the chuck a distance greater than the distance traversed by it when moving toward the chuck.

28. An improvement in glass cutting mechanism comprising a chuck, a grinder, means for moving the grinder into and out of engagement with an article carried by said chuck, a ieeler slide for contacting with an article carried by said chuck, whereby said slide may be variably positioned in accordance with the size of the article, means whereby movement of the grinder toward said chuck is limited by said. slide, and means for preventing the grinder from moving away from the chuck a distance greater than the distance traversed by it when moving toward the chuck.

29. An improvement in glass cutting mechanism'comprising a chuck, a grinder, means for moving the grinder toward and from the work, means for variably limiting movement of the grinder toward the work in accordance with inequalities in the surface of the work, and means for preventing the grinder from moving away from the work a distance greater than the distance traversed by it when moving toward the chuck in makingv each individual cut.

30. An improvement in glass cutting mechanism comprising a chuck, a grinder, a rock shaft connected with the grinder to move the same into and out of engagement With an article carried by the chuck, means for periodically actuating said rock shaft, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the sizeozt said article, and means for preventing the grinder from moving away from the chuck a distance greater than the distance traversed by 11;

when moving toward the chuck in making each individual cut.

31. "in iiDPEOVGDlQHb in lass cuttinginecl'uinism comprising a chuck, a grinder, a rock shaft connected with the 'rindcr a lid having :1 predetermined are of oscillation to more the der tmvard and ix-om the chuck, means variably limiting movcrd the chuck in acice vi h inequalities in the article carsaid chuck, means for preventing the giindor from moving away from the chuck a distance greater than the distance traversed by it when moving toward the chuck, and relief means for permitting the rock shaft to complete its arc o i. oscillation when movement of the grinder away "from the chuck is arrested.

An improvement in. glass cutting llltkjlh anism con'iprising -huck, a grinder, a. rock shaft connected with the grinder to move the same tmvard and from the chuck, means for periodically actuating said rock shaft, means for variably limiting movement of the grinder toward said chudk in accordance with inequalities in the sire of an article carried by said chuck, an arm attached to said rock shaft, and means cooperating with said arm to limit movement of the grinder away from said chuck.

83. in improvement in glass cutting in chanism comprising a chuck, a grinder, a rock shaft connected with the grinder to move the ame toward and from. the chuck, means for periodically actuating said rock shaft, means for variably limiting iuoven'ient of the grinder toward said chuck in :utcordonce with inequalities in the size of an article carried by said chuck. an arm connected with said rock shaft, and a variable abutment positioned to cooperate with said arm to limit movement of the grinder a *ay from said chuck.

in improvement in glass cutting mechanism comprising a chuck, a grinder, a rock shaft connected with the grii'idcr to move the same toward and from the chuck, means for periodically actuating said rock shaft, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the size of an article carried by said chuck, an arm connected with said rock shaft, and provided with a variable abutment, and :1V wedgeshaped abutment positioned to cooperate with said variable abutment to variably limit movement of the grinder away from said chuck.

35. An improvement in glass cutting mechanism comprising a chuck, a grinder, a rock shaft connected with the grinder to move the same to aid and from the chuck, means for periodically actuating said rock shaft, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the size of an article carried by said chuck, an arm connected with said rock shaft and provided with a variable abutment, a pivoted member having a wedgeshaped abutment positioned to cooperate with said variable abutment to variably limit movement of the grinderaway from said chuck, and means for controlling movement of said abutment.

36. An improvement in glass cutting mechanism comprising a chuck, a grinder, a rock shaft connected with the grinder to move the same toward and from the chuck, means for periodically actuating said rock shaft, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the size of an article carried by the chuck, an arm connected with said rock shaft, a wedge-shaped abutment, andmeans whereby said abutment automatically moves transversely of said arm as the arm moves with the rock shaft during movement of the grinder toward said chuck.

37. An improvement in glass cutting mechanism comprising a chuck, a grinder, a rock shaft connected with the grinder to move the same toward and from the chuck, means for periodically actuating said rock shaft, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the size of an article carried by the chuck, an arm carried by the rock shaft, and a pivotally supported wedge-shaped abutment positioned to move by gravity transversely of said arm as the arm moves with the rock shaft during movement of the grinder toward said chuck.

38. An improvement in a glass cutting mechanism comprising a chuck, a grinder,

. a rock shaft connected with the cutter to move the same toward and from the chuck, means for periodically actuating saidrock shaft, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the size of an article carried by the chuck, an arm con nected with the rock shaft, a pivotally supported wedge-shaped abutment positioned to move by gravity transversely of said arm as the arm moves with the rock shaft during movement of the grinder toward said chuck, and an actuator for reversing movement of said abutment.

39. An improvement in giass cutting mechanism comprising a chuck, a grinder, means for moving the grinder toward and from the chuck, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the size of an article carried by said chuck, and a variable abutment for breventing the grinder from moving away from the chuck a distance greater than the distance traversed by it when moving toward the chuck.

4,0. An improvement in glass cutting mechanism comprising a chuck, a grinder, means for moving the grindeftoward and from the chuck, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the size of an article carried by the chuck, a wedge shaped abutment, means cooperating with said abutment for preventing the grinder from moving away from the chuck a distance greater than the distance traversed by it when moving toward the chuck, and means for controlling movement of said abutment.

41. An improvement in glass cutting mechanism comprising a chuck, a grinder, means for moving the grinder toward and from the chuck, means for variably limiting movement of the grinder toward said chuck in accordance with inequalities in the size of an article carried by the chuck, a gravity operated variable abutment, means co-operating with said abutment for preventing the grinder from movin away from the chuck a distance greater tian the distance traversed by it when moving toward the chuck, and an actuator for periodically positioning said abutment.

42. An improvement in glass cutting mechanism comprising a chuck, a grinder, a rock shaft connected with the grinder and having a predetermined arc of oscillation to move the grinder toward and from the chuck, means for variably limiting move ment of the grinder toward the chuck in accordance with inequalities in the article carried by the chuck, an arm for operating said rock shaft, means cooperating with said arm to prevent the grinder from moving away from the chuck a distance greater than the distance traversed by it when moving toward the chuck, and means for effecting a variable engagement between i said arm and said rock shaft.

43. An improvement in glass cutting mech anism comprising a chuck, a grinder, a rock shaft connected with the grinder and having a predetermined arc of oscillation to move the grinder toward and from the chuck, means for variably limiting movement of the grinder toward the chuck in accordance with inequalities in the article carried by said chuck, an arm for operating said rock shaft, means cooperating with said arm to prevent the grinder from moving away from the chuck a distance greater than the distance traversed by it when moving toward the chuck, and compiemental friction devices connecting said arm and said rock shaft.

44:. An improvement in glass cutting mechanism comprising a chuck, a grinder, a rock shaft, an arm having a frictional engagement with said rock shaft and connected with said grinder, said grinder being movable toward and from the chuck, means for variably limiting movement of the grinder -means for variably limiting movement, of

the grinder toward the chuck in accordance with inequalities in the article carried by said chuck, mean cooperating with said extension to prevent the grinder from moving from the chuck a distance greater than the distance traversed by it when moving toward the chuck, and means for periodically actuating said arm.

46. An improvement in glass cutting mechanism comprising a chuck, a grinder, a cam, a cam arm engaging said cam, a relief connection between the camarm and the grinder, means for variably limiting movement of the grinder toward the chuck in accordance with inequalities in the article carried'by the chuck, and means for preventing the grinder from moving away from the chuck a distance greater than the distance traversed by it when moving toward the chuck.

47. An improvement in glass cutting mechanism comprising a chuck, a grinder, means for moving the grinder toward and from the chuck, an arm connected with the grinder-moving means, means for variably limiting movement of the grinder toward the chuck in accordance with inequalities in the ,SIZB of anarticle earned by the chuck, a

yieldable abutment carried by said arm, and means for engaging said abutment to limit movement of the grinder away'from said chuck.

48. An improvement in glass cutting mechanism comprising a chuck, a grinder, means for moving the grinder toward and from the chuck, an arm connected with the grindermoving means, means for variably limiting movement of the grinder toward the chuck in accordance with inequalities in the size of an article carried by the chuck, a yield able abutment" carried by said arm, and a variable abutment positioned to engage said yieldable abutment to limit movement of the rinder away from said chuck.

improvement in glass cut-ting mechanism comprising a chuck, a grinder, means for moving the grinder toward and from the chuck, an arm connected with the grinder-moving means, means for variably limiting movement of the grinder toward the chuck in accordance with inequalities in the size of an article carried by the chuck, a yieldable abutment carried by said arm, a

pivoted member having a wedgeshaped abutment positioned to engage said yieldable abutment to variably limit movement o i the grinder away from the chuck, and means l'or controlling movement of said wedge-shapcd abutment.

50. An improvement in glass cutting lllUl'll anism comprising a chuck, a grinder, means for moving the grinder toward and from tln chuck, an arm connected with the grindermoving means, means for variably limiting movement of the grinder toward the chuck in accordance with inequalities in the sire of an article carried by the chuck, a yieldable abutment carried by said arm, and a pivot-- ally supported wedgeshaped abutment pnsitioned to move by gravity transversely of said yieldable abutment during inrn'cincnt of the grinder toward said chuck.

51. An improvement in glass cutting met-hanism comprising a chuck, a grimlcr, means for moving the grinder toward and from the chuck, an arm connected with the grindcn moving means, means for variably limiting movement of the grinder toward the Cllllt'k in accordance with inequalities in the size ofan article carried by the chuck, a yieldable abutment carried by said arm, a pivoially supported wedge-shaped abutment posi tioned to move by gravity transversely of said arm as the grinder moves to ward said chuck, and an actuator For reversing the movement of said wedge-shamed abutment.

52. An improvement in cutting mechanism comprising a chuck, a grinder. means for moving the grinder toward and from the chuck, an arm connected with the grinder moving means, means for variably limiting movement of the grinder toward the chuck in accordance with inequalities in the size of an article carried by the chin-k, a spring pressed pin mounted in said arm and having abutment shoulders, and means for variably engaging said pin to limit movement of the grinder away from said chuck.

58. An improvement in glass cutting: mechanism comprising a chuck, a grinder, means for moving the grinder into and out of engagement with an article carried by the chuck, means for rotating the muck, and pattern controlled. means for imparting a longitudii al movement to said chuck.

5%. An improvement in glass cutting mechanism comprising a rotatable chuck. a grader, means for moving the grinder into and out of engagement with an article carried by the chuck, means normally acting to impart longitudinal movement to the chuck, and pattern means for i.'e;;i1l:itii1g said longitudinal movement.

55. An improvement in glass cutting mechanism comprising a spring pressed chuck shaft having a flange, a cutter. means for moving the cutt r into and out oi. en-

lllU

llO

1 scenes gagement with an'article Supported by said chuck shaft, pattern means engaging said flange to limit movement of said shaft under the action of its spring, and automatic means "for disengaging said pattern means from said flange.

56. An improvement in glass cutting mechanism comprising a rotatable chuck, a grinder, means for moving the grinder into and out 01 engagement with an article carried by the chuck, means normally acting to impart longitudinal movement to the chuck, a pattern member controlling said longitudinal. movement, and means for automatically adjusting said pattern member to permit limited longitudinal movement of said chuck.

57. An improvement in glass cutting mechanism comprising a rotatable chuck provided with a flange, a grinder, means for moving the grinder into and out of engagement with an article carried by the chuck, means normally acting to impart longitudinal movement to the chuck, a pattern member engaging said flange to limit said longitudinal movement, and means tor automatically adjusting said pattern member to permit limited longitudinal movement oi? said chuck.

58. An improvement in glass cutting grinder, means for moving the grinder into and out of engagement with an article car ried by the chuck, a flange connected with said chuck, means normally acting to impart longitudinal movement to said chuck, a pattern member provided with a plurality of shoulders positioned to engage said flange to limit said longitudinal movement, and means for periodically moving the pat tern member to permit said flange to successively engage said shoulders.

60. A. improvement in glass cutting mechanism comprising a rotatable chuck, a grinder, means for moving the grinder into and out of engagement with an article carried by the chuck, and means controlled by the chuck for automatically stopping the machine when the chuck has made a pre determined number of revolutions.

61. An improvement in glass cutting mechanism comprising a rotatable chuck, a grinder, means for moving the grinder into the" pattcrir on said article pljetode and out of engagement with an article carried by the chuck, pattern means controlling the operation of the chuck, and means for automatically stopping the machine when has been co1na pattern member provided with a plurality of shoulders positioned to engage said flange to limit said longitudinal movement, means for periodically moving the pattern member to permit said flange to successively engage said shoulders, and means for auto matically stopping the machine at the end of one complete revolution after the flange is engaged with the last shoulder.

63. An improvement in glass cutting mechanism comprising a drive shaft, a rotatable chuck, means operated by said drive shaftfor actuating said chuck, means normally acting to impart longitudinal movement to the chuck, a throw-ofl member controlling the application of power to said drive shaft, and a throw-oil pawl connected with the chuck and normally out of regis ter with said throw-oil member, said pawl being positioned to be brought into engagement with the throw-off member as the chuck moves longitudinally.

6 1-. An improvement in glass cutting mechanism comprising spaced apart grindmounted on parallel axes, and a chuck positioned between said cutters, on an axis extending in the same general direction, the axis of the chuck being at an angle with respect to the axes of the grinders.

65. An improvement in glass cutting mechanism comprising spaced apart grinders mounted on parallel horizontal axes, and a chuck located between the grinders and mounted on an inclined axis extending in the same general direction.

66. An improvement in glass cutting mechanism comprising spaced apart grinders mounted on parallel anes, a chuck positioned between said grinders, the axis of the chuck being at an angle with respect to the axes of the grinders, and means whereby the grinders may be adjusted in lines parallel. with their axes.

67. An improvement in glass cutting mechanism comprising a frame, spaced apart grinder slides, grinders in said slides mounted on parallel axes, a chuck between grinders, means for moving the grinder an angle with respect to the axes of the grinders, means for moving the grinder slides toward and from the chuck, and

means whereby the grinder slides may be adjusted forward and rearwardly on said frame.

68. An improvement in glass cutting mechanism comprising a frame, spaced apart boxes, spaced apart grinders mounted in said boxes on parallel axes, a chuck between the grinders, the axis of the chuck being at an angle with respect to the axes of the grinders, and means whereby said 10 boxes may be adjusted forwardly and rearwardly' in said frame.

In testimony whereof I have hereunto set my hand.

JOHN A. MILLIKEH. 

